机构地区:[1]Radiobiology Department,Institute of Modern Physics,Chinese Academy of Sciences
出 处:《Nuclear Science and Techniques》2014年第2期47-50,共4页核技术(英文)
基 金:Supported by the director foundation in the youth science foundation of Gansu Province(No.099RJYA012);west China light program(No.0906040XBO);knowledge innovation program(No.KJCX2-YWN34-3 and KJCX2-EW-N05-1);west China action project of Chinese Academy of Sciences(No.Y110190XBX)
摘 要:Sweet sorghum has the potential of becoming a useful energy crop.An early-maturity mutant of sweet sorghum,KFJT-1,was obtained by carbon ions irradiation of KFJT-CK,a wild plant.In this paper,we evaluate the mutant from the length and fresh weight of radicle and leaves after seed germination,the growth rate at the elongation stage,and the internodal parameters under field trail condition.The results showed that the seedling growth of KFJT-1 was inhibited by carbon ions irradiation,and the leaf length,the fresh weight of radicle and leaves from KFJT-1 decreased by 15.32%,76.27%,and 27.08%than those of KFJT-CK,respectively.However,the growth rate of KFJT-1 on July 12,July 27 and August 1 increased by 16.19%,59.28%and26.87%,respectively,compared with the KFJT-CK.The stalk diameter,total biomass yield and sugar content of KFJT-1 was higher than those of KFJT-CK,despite that the plant height of KFJT-1 was significantly less than KFJT-CK(P < 0.05).In addition,KFJT-1 differed from KFJT-CK in the internodal length,weight and sugar content.In conclusion,the early-maturity mutant of KFJT-1 will be a promising variety for sweet sorghum industrialization in Gansu province,China.Sweet sorghum has the potential of becoming a useful energy crop. An early-maturity mutant of sweet sorghum, KFJT-1, was obtained by carbon ions irradiation of KFJT-CK, a wild plant. In this paper, we evaluate the mutant from the length and fresh weight of radicle and leaves after seed germination, the growth rate at the elongation stage, and the internodal parameters under field trail condition. The results showed that the seedling growth of KFJT-I was inhibited by carbon ions irradiation, and the leaf length, the fresh weight of radicle and leaves from KFJT-1 decreased by 15.32%, 76.27%, and 27.08% than those of KFJT-CK, respectively. However, the growth rate of KFJT-I on July 12, July 27 and August 1 increased by 16.19%, 59.28% and 26.87%, respectively, compared with the KFJT-CK. The stalk diameter, total biomass yield and sugar content of KFJT-1 was higher than those of KFJT-CK, despite that the plant height of KFJT-1 was significantly less than KFJT-CK (P 〈 0.05). In addition, KFJT-I differed from KFJT-CK in the internodal length, weight and sugar content. In conclusion, the early-maturity mutant of KFJT-1 will be a promising variety for sweet sorghum industrialization in Gansu province, China.
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
